Raman Spectroscopy by BFI OPTiLAS

	Handheld Raman System Low Resolution Raman Systems Raman Systems
	Bench-Top Raman Spectrometers Handheld Raman Spectrometers Portable Raman Spectrometers RockHound	Raman Microscopes
	CARS Micro-Spectroscopy Kit

Handheld Raman System
Handheld Raman spectrometer is a 12"x6" systems for performing low-resolution raman spectrsocpy for on-site materiala analysis. Raman shift range: ~200-2700cm-¹ Resolution: ~15cm-¹ Lasers: Solid state at 782nm diode

Low Resolution Raman Systems
Is a fully integrated analyser for real time qualitative and quantitative analysis of solutions, powders, tablets, gels and surface media. Raman shift range: ~200-2700cm-¹ Resolution: ~10cm-¹ Lasers: Solid state at 782 or 532nm diode

Raman Systems
The raman spectrometer is a unique combination of detector and optical bench technologies that provides users with high spectral response and high optical resolution in one package. NIST-Traceable Raman Standard Two models are NIST-certified standards for determining the absolute spectral intensity of your raman system. Low light level applications Quantum efficiency to 90% Increased system sensitivity

Bench-Top Raman Spectrometers
The Advantage series are our classic low cost and high performance bench top models with the option of 532 nm, 633 nm, 785 nm (NIR) or 1064 nm excitation. Advantage 532 Low cost, high performance Raman spectrometer Spectral range is extends from 200 to 3400 wavenumbers Advantage 633 High performance 633 nm Raman system Wide spectral range for analysis of inorganic anions to aliphatic hydrocarbons. Advantage 785 Near-Infrared Raman Spectrometer 785 nm excitation laser to reduce the fluorescence signature Advantage 1064 Longest wavelength excitation available in a dispersive Raman spectrometer Fluorescence-Free Raman Spectrometer Advantage accessories offers easy Raman measurements with solutions, gels, powders, or surfaces.

Handheld Raman Spectrometers
The Inspector Raman is a robust, portable Raman spectrometer that fits in your hand for analysis of solids, liquids, pastes, and slurries. Liquids: Sample cell attachment for 8mm vials, NMR tubes, or MP tubes Microscopy: Optional microscope attachment laser: 120mW 785 nm resolution: 8 cm-1 spectral range: 200 - 2000 cm-1 Applications Analysis of organometallic compounds in a glove box Botanical research Octane number in fuels Edible oil analysis

Portable Raman Spectrometers RockHound
Try the RockHound™ for rock and mineral identification. Raman spectroscopy is the method for rapid and non-destructive mineral identification. The RockHound is a portable, hand-held field analysis spectrometer which takes Raman spectroscopy beyond a laboratory setting. A library with approximately 500 samples is used to aid students, professors and researchers in the identification of unknown rocks, minerals and soils. The RockHound is the only portable Raman spectrometer dedicated to the geological sciences. Applications : Teaching Industrial Geology Precious Minerals and Gems Archeology

Raman Microscopes
Raman microscopy is an information rich way to characterize your samples in life sciences, geology, nanotechnology, semiconductor, forensic science and any other application where accurate chemical identification is needed. The ExamineR combines the quality of Olympus microscopy with the performance of DeltaNu's Raman spectroscopy. Choice of wavelength modules:532nm, 785nm, or 1064nm Excellent spectral resolution 1064 Spectral range 200 cm-1 to 2000 cm-1 785 Spectral range 200 cm-1 to 2000 cm-1 100 to 2000 cm-1 optional 532 Spectral range 200 cm-1 to 3400 cm-1 Microscope Features: Solid research microscope platform - the Olympus BX51 Automated XYZ stage for confocal performance and mapping

CARS Micro-Spectroscopy Kit
Coherent anti-Stokes Raman spectroscopy, also called Coherent anti- Stokes Raman scattering spectroscopy (CARS), is a form of spectroscopy used primarily in chemistry, physics and related fields. It is sensitive to the same vibrational signatures of molecules as seen in Raman spectroscopy, typically the nuclear vibrations of chemical bonds. Unlike Raman spectroscopy, CARS employs multiple photons to address the molecular vibrations, and produces a signal in which the emitted waves are coherent with one another. As a result, CARS is orders of magnitude stronger than spontaneous Raman emission. CARS is a third-order nonlinear optical process involving three laser beams : a pump beam of frequency ωpump, a Stokes beam of frequency ωStokes and a probe beam at frequency ωprobe. These beams interact with the sample and generate a coherent optical signal at the anti-Stokes frequency ωCARS=ωpump-ωStokes+ωprobe. Features : Minimally invasive technique Non-photobleaching signal for live cell studies Broadband tuning range 500 – 4500 cm-1 Higher sensitivity (stronger signals) than spontaneous Raman microscopy – faster, more efficient imaging for real-time analysis CARS signal is at high frequency (lower wavelength) – minimal fluorescence interference High spatial resolution Integrated with Ekspla tunable laser PT259 System easy transformable to micro-spectrometer for fluorescence measurements based on two-photon excitation Applications : E-CARS, F-CARS, P-CARS spectroscopy Species selective microscopy 3D sample imaging Dynamic live cell imaging Long-term live cell processes monitoring Non-destructive medical, biological research Your application is welcome...